HUMANGGP:012675 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: HUMANGGP:012675 (S100)
6,012 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calgranulin A (CAGA) and calgranulin B (CAGB) are two S100-like calcium-binding proteins that in human, bovine and mouse granulocytes are associated into a heterocomplex. We have previously identified in pig granulocytes the porcine homologue of CAGA and a novel S100-like protein which was named calgranulin C (CAGC). As pig CAGA is not associated with CAGC, we herein investigate its possible association with other proteins. CAGA was purified from pig granulocytes by gel filtration followed by Mono Q chromatography. The purified fractions were analysed by SDS-polyacrylamide gel electrophoresis, isoelectric focusing, mass spectrometry, chemical cross-linking and hydrophobic interaction chromatography. The CAGA-associated protein was further characterized by amino acid sequencing. Two CAGA-containing fractions were isolated. One of them was identified as a CAGA homodimer. The other fraction consists of a heterocomplex containing CAGA and a pI 7.0 calcium-binding protein; this protein has a molecular mass of 15,877.9 +/- 3.8 Da (mean +/- SD) whereas it migrates on 10 and 16% polyacrylamide gels as a 24- and 20-kDa protein, respectively. The pI 7.0 protein was identified by internal amino acid sequencing as the porcine homologue of CAGB. The stoichiometry of the heterocomplex was estimated to be 1:1. Both the CAGA homodimer and CAGA/CAGB were found to be non-covalently associated. Unlike the homodimer, CAGA/CAGB was bound to a Phenyl Superose column in a calcium-dependent manner. Our results suggest that pig granulocytes contain, in addition to CAGC, a CAGA homodimer and a CAGA/CAGB heterodimer. It is proposed that CAGB/CAGB and the CAGA homodimer may play different roles in vivo.
...
PMID:Complex assembly of calgranulins A and B, two S100-like calcium-binding proteins from pig granulocytes. 862 44

We found by using a 45Ca2+ overlay technique a large amount of Ca(2+)-binding activity in bovine amniotic fluid from which a novel calcium-binding protein (CaBP) was purified and is referred to as CAAF1 (calcium-binding protein in amniotic fluid-1), with an apparent molecular mass of 8 kDa determined by N-tris(hydroxymethyl)-methylglycine/ SDS-PAGE. It was structurally homologous with MRP/calgranulin proteins (MRP8/calgranulin A and MRP14/calgranulin B), members of the S100 protein family, which are abundantly found in the cytoplasm of granulocytes and macrophages. CAAF1 lacked the predicted signal peptide sequence, which is consistent with other CaBPs. The tissue and cellular distribution of CAAF1 was determined by monoclonal antibodies developed against this protein. Its immunoreactivity was found in squamous epithelial cells, neutrophils, and some macrophages throughout the fetal body. An especially characteristic staining pattern was obtained in the squamous epithelium, including that of the esophagus, skin and amnion: CAAF1 was detected in the suprabasal squamous epithelial cells undergoing differentiation, but not in the cells in the proliferating basal layer. Northern blot analysis also showed that CAAF1 mRNA was highly expressed in bovine fetal esophagus and skin. On the other hand, our ELISA studies showed that CAAF1 protein was present in amniotic fluid at a concentration of about 120 nM, which was over 30 times as high as that in the fetal serum. These results suggested that CAAF1 is one of the stage-specific proteins in the differentiation of squamous epithelial cells, and that CAAF1 is preferentially produced by fetal squamous epithelial cells, including epidermal keratinocytes and amniotic epithelial cells, and it is stored in the amniotic fluid during embryogenesis.
...
PMID:A novel calcium-binding protein in amniotic fluid, CAAF1: its molecular cloning and tissue distribution. 871 72

The epidermal differentiation complex (EDC) unites a remarkable number of structurally, functionally, and evolutionarily related genes that play an important role in terminal differentiation of the human epidermis. It is localized within 2.05 Mb of region q21 on human chromosome 1. We have identified and characterized 24 yeast artificial chromosome (YAC) clones by mapping individual EDC genes, sequence-tagged site (STS) markers (D1S305, D1S442, D1S498, D1S1664), and 10 new region-specific probes (D1S3619-D1S3628). Here we present a contig that covers about 6 Mb of 1q21 including the entire EDC. Fluorescence in situ hybridization on metaphase chromosomes with two YACs flanking the EDC determined its chromosomal orientation and established, in conjunction with physical mapping results, the following order of genes and STSs: 1cen-D1S442-D1S498-S100A10-THH-FLG- D1S1664-IVL-SPRR3-SPRR1-SPRR2-LOR- S100A9-S100A8-S100A7-S100A6-S100A5-S100 A4- S100A3-S100A2-S100A1-D1S305-1qtel. These integrated physical, cytogenetic, and genetic mapping data will be useful for linkage analyses of diseases associated with region 1q21 and for the identification of novel genes and regulatory elements in the EDC.
...
PMID:Genetic analysis of the epidermal differentiation complex (EDC) on human chromosome 1q21: chromosomal orientation, new markers, and a 6-Mb YAC contig. 893 41

Here, we report the characterization of a human cDNA coding for the recently published amino acid sequence of a calcium-binding S100 protein, S100A12 (CGRP, calgranulin C, CAAF1, p6). The exon/intron structure of the S100A12 gene is similar to most other S100 genes. It is composed of three exons which are divided by two introns of 900 bp and 400 bp. The protein is encoded by sequences in exons 2 and 3, with exon 2 coding for the N-terminal 45 amino acids and exon 3 coding for the C-terminal 46 amino acids. So far, ten S100 genes are known to be located on human chromosome 1q21 in a clustered organization. Hence, we investigated whether S100A11 (S100C, calgizzarin) and S100A12 are also localized in the S100 gene cluster. We found both genes within the cluster, with S100A11 being close to S100A10 and S100A12 between the genes S100A8 and S100A9. Therefore, the S100 gene cluster now is composed of 12 differentially expressed family members.
...
PMID:Characterization of the human S100A12 (calgranulin C, p6, CAAF1, CGRP) gene, a new member of the S100 gene cluster on chromosome 1q21. 898 90

We show that unsaturated fatty acids (FAs) bind reversibly and with high affinity to a heterocomplex of 34 kDa (FA-p34) formed by the non-covalent association of two calcium-binding proteins of the S100 family: MRP8 (S100A8) and MRP14 (S100A9). Fatty acid-competition studies on the [3H]oleic acid.FA-p34-complex show that oleic, alpha-linoleic, gamma-linolenic, and arachidonic acids have IC50 values of about 1 microM, whereas palmitic and stearic acids are poor competitors. The binding of arachidonic acid is saturable with a single class of binding site per FA-p34, and a dissociation constant (Kd) of 0.13 microM is calculated. The individual subunits MRP8 and MRP14 show no binding properties for fatty acids, whereas a p34 complex reconstituted in vitro by the recombinant molecules exhibits binding properties, suggesting that the fatty acid-binding site of FA-p34 is created through heterocomplex formation. Furthermore, we demonstrate that lowering free Ca2+ levels to 16 nM results in a loss of the fatty acid-binding capacity of purified FA-p34. In calcium-induced differentiating keratinocytes, the amounts of FA-p34 are increased in the particulate (2.0 +/- 0.5 pmol of [3H]oleic acid/mg protein) and in the cytosolic (4.5 +/- 0.6 pmol of [3H]oleic acid/mg protein) fractions, whereas no FA-p34 can be detected in non-differentiated cultured keratinocytes. In abnormally differentiated keratinocytes (psoriasis) and in human polymorphonuclear leukocytes, FA-p34 is highly expressed (31.35 +/- 1.6 and 349.8 +/- 17.9 pmol of [3H]oleic acid/mg protein, respectively), pointing toward a role for this heteromer in mediating effects of unsaturated fatty acids in a calcium-dependent way during cell differentiation and/or inflammation.
...
PMID:A heterocomplex formed by the calcium-binding proteins MRP8 (S100A8) and MRP14 (S100A9) binds unsaturated fatty acids with high affinity. 908 74

The 14-kDa myeloid-related protein (MRP-14) and its heterodimeric partner, MRP-8, are members of the S100 family of calcium-binding proteins (S100A9 and S100A8, respectively). Their importance in neutrophil function is implied by their unusual abundance in neutrophil cytosol (approximately 40% of cytosolic protein). Previous work from our laboratory has demonstrated the extracellular association of these proteins with vascular endothelium adjacent to transmigrating leukocytes. We report here a function for MRP-14 as a stimulator of neutrophil adhesion mediated by the beta 2 integrin, Mac-1. MRP-14 is an affinity regulator of Mac-1 because it promotes binding of soluble ligand and expression of an "activation reporter" epitope of high affinity beta 2 integrins recognized by mAb24. The activity of MRP-14 is confined to regulating integrin function because, unlike other inflammatory agonists, there was no release of L-selectin, up-regulation of cytosolic Mac-1, or induction of neutrophil respiratory burst or calcium flux. Furthermore, MRP-14 does not act as a chemoattractant or cause alterations in cell shape or cytoskeleton. MRP-8 has a regulatory role in MRP-14 activity, inhibiting the adhesion induced by MRP-14 through the formation of the heterodimer. In terms of mechanism of action, MRP-14 does not increase Mac-1 function by direct binding to this integrin but recognizes a distinct receptor on neutrophils. This receptor interaction is pertussis toxin sensitive, indicating that MRP-14-generated signals leading to a Mac-1 affinity increase are heterotrimeric G protein dependent. We postulate that MRP-14 and MRP-8 are important in vivo candidates for the regulated adhesion of neutrophils through control of Mac-1 activity.
...
PMID:The human S100 protein MRP-14 is a novel activator of the beta 2 integrin Mac-1 on neutrophils. 957 May 63

Calcium-binding S100 proteins are thought to play a central role in calcium-mediated signal transduction pathways. They consist of two helix-loop-helix, calcium-binding EF-hand domains. A characteristic feature is their tendency to form homo- and/or heterodimeric complexes. This report presents for the first time a functional "in vivo" approach to the analysis of S100 protein dimerization. Using the two-hybrid system we analyzed the dimerization of MRP8 (S100A8) and MRP14 (S100A9), two S100 proteins expressed in myeloid cells. It is reported that the MRP8-MRP14 heteromer is the clearly preferred complex in both man and mouse. The ability to homodimerize, however, appears to be restricted to the murine MRPs. Interaction analysis of chimeric murine/human MRP14 proteins indicates, that the C-terminal EF-hand domain plays a prominent role in MRP8-MRP14 interaction and determines the specificity of dimerization. Site-directed mutagenesis of four evolutionary conserved hydrophobic amino acids, which have been recently supposed to be essential for S100 protein dimerization, suggests that at least one of these, namely the most N-terminal located residue, is not critical for dimerization.
...
PMID:Analysis of the MRP8-MRP14 protein-protein interaction by the two-hybrid system suggests a prominent role of the C-terminal domain of S100 proteins in dimer formation. 986 28

The two migration inhibitory factor- (MIF)-related protein-8 (MRP8; S100A8) and MRP14 (S100A9) are two calcium-binding proteins of the S100 family. These proteins are expressed during myeloid differentiation, are abundant in granulocytes and monocytes, and form a heterodimeric complex in a Ca2+-dependent manner. Phagocytes expressing MRP8 and MRP14 belong to the early infiltrating cells and dominate acute inflammatory lesions. In addition, elevated serum levels of MRP8 and MRP14 have been found in patients suffering from a number of inflammatory disorders including cystic fibrosis, rheumatoid arthritis, and chronic bronchitis, suggesting conceivable extracellular roles for these proteins. Although a number of possible functions for MRP8/14 have been proposed, the biological function still remains unclear. This review addresses recent developments regarding the MRP14-mediated promotion of leukocyte-endothelial cell-interactions and the characterization of MRP8/14 heterodimers as a fatty acid binding protein complex. In view of the current knowledge, the authors will hypothesize that MRP8 and MRP14 play an important role in leukocyte trafficking, but do not affect neutrophil effector functions.
...
PMID:Novel insights into structure and function of MRP8 (S100A8) and MRP14 (S100A9). 992 Apr 11

S100 Ca2+-binding proteins became of major interest because of their differential expression in tissues and their association with human diseases. Earlier studies showed that 13 S100 genes are located as a cluster on human chromosome 1q21. Since a number of mouse S 100 genes, such as S100A4 and S100A6, have been localized to a syntenic region on mouse chromosome 3, we investigated if the S100 gene cluster exists in mouse and is structurally conserved during evolution. First we identified the cDNA sequences of mouse S100A1, S100A3 and S100A5. Then we isolated a 490 kb mouse YAC clone which gives a specific signal by FISH most likely on chromosome 3. Hybridization studies with different mouse S100 cDNAs revealed that eight mouse S100 genes are arranged in a clustered organization similar to that in human. The linkage relationships between the genes S100A8-S100A9 and S100A3-S100A4-S100A5-S100A6 were conserved during divergence of human and mouse about 70 million years ago. However, the separation of the mouse S100 genes S100A1 and S100A13 in comparison to the human linkage group suggests rearrangement processes between human and mouse. Our data demonstrate that the S100 gene cluster is structurally conserved during evolution. Further studies on the genomic organization of the S100 genes including various species could generate new insights into gene regulatory processes and phylogenetic relationships.
...
PMID:Clustered organization of S100 genes in human and mouse. 992 Apr 16

S100A8 (also known as CP10 or MRP8) was the first member of the S100 family of calcium-binding proteins shown to be chemotactic for myeloid cells. The gene is expressed together with its dimerization partner S100A9 during myelopoiesis in the fetal liver and in adult bone marrow as well as in mature granulocytes. In this paper we show that S100A8 mRNA is expressed without S100A9 mRNA between 6.5 and 8. 5 days postcoitum within fetal cells infiltrating the deciduum in the vicinity of the ectoplacental cone. Targeted disruption of the S100A8 gene caused rapid and synchronous embryo resorption by day 9. 5 of development in 100% of homozygous null embryos. Until this point there was no evidence of developmental delay in S100A8-/- embryos and decidualization was normal. The results of PCR genotyping around 7.5-8.5 days postcoitum suggest that the null embryos are infiltrated with maternal cells before overt signs of resorption. This work is the first evidence for nonredundant function of a member of the S100 gene family and implies a role in prevention of maternal rejection of the implanting embryo. The S100A8 null provides a new model for studying fetal-maternal interactions during implantation.
...
PMID:A null mutation in the inflammation-associated S100 protein S100A8 causes early resorption of the mouse embryo. 1043 63

1 2 3 4 5 6 7 8 9 10 Next >>